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Showing 1 - 16 of 16 matches in All Departments
This book is the first comprehensive work to be published on far-ultraviolet (FUV) and deep-ultraviolet (DUV) spectroscopy, subjects of keen interest because new areas of spectroscopy have been born in the FUV and DUV regions. For example, FUV spectroscopy in condensed matter has become possible due to the development of attenuated total reflection/FUV spectroscopy. As other examples, DUV surface-enhanced Raman scattering and DUV tip-enhanced Raman scattering have received great attention. Imaging by DUV spectroscopy has also become an area of interest. More recently, FUV and DUV spectroscopy have shown potential for applications in several fields including industry. All these topics are described in this book. Doctoral students and researchers in universities and national research institutes as well as researchers in various industries will find this volume highly useful.
When a photon meets a nanostructure, many interesting phenomena occur. This book aims at developing the theories and the applications of photon interactions with nanostructures. The contributors were all participants in the well-known Japanese national research project, "Near-Field Nano-Optics", which ran from 1997 to 2000. The book covers a wide range of disciplines in nano-optics, including the theoretical development of imaging-contrast mechanisms as a result of photon and nanomatter interactions, and discussions on different near-field nanoprobes. Applications of nano-optics to sensing, imaging, analysis, and the fabrication of nanostructures, such as molecules and quantum devices, are also discussed, with a collection of experimental examples.
The first volume in the series was released in January 2004 and the second to fourth volumes in early 2006. The field is now progressing so fast that there is a need for one volume every 12 to 18 months to capture latest developments. Volume VI presents 10 chapters on a variety of new and emerging techniques and refinements of SPM applications.
The volumes V, VI and VII will examine the physical and technical foundation for recent progress in applied scanning probe techniques. These volumes constitute a timely comprehensive overview of SPM applications. This is the first book summarizing the state-of-the-art of this technique. The chapters are written by leading researchers and application scientists from all over the world and from various industries to provide a broader perspective.
This series presents critical reviews of the present and future trends in polymer and biopolymer science including chemistry, physical chemistry, physics and materials science. It is addressed to all scientists at universities and in industry who wish to keep abreast of advances in the topics covered. Impact Factor Ranking: Always number one in Polymer Science. More information as well as the electronic version of the whole content available at: www.springerlink.com
Covers not only near-field optical microscopy but also wider fields such as local spectroscopy, nano-scale optical processing, quantum near-field optics, and atom manipulation.
While many books are dedicated to individual aspects of nanofabrication, there is no single source that defines and explains the total vision of the field. Filling this gap, Nanofabrication Handbook presents a unique collection of new and the most important established approaches to nanofabrication. Contributors from leading research facilities and academic institutions around the world define subfields, offer practical instructions and examples, and pave the way for future research. Helping readers to select the proper fabricating technique for their experiments, the book provides a broad vision of the most critical problems and explains how to solve them. It includes basic definitions and introduces the main underlying concepts of nanofabrication. The book also discusses the major advantages and disadvantages of each approach and offers a wide variety of examples of cutting-edge applications. Each chapter focuses on a particular method or aspect of study. For every method, the contributors describe the underlying theoretical basis, resolution, patterns and substrates used, and applications. They show how applications at the nanoscale require a different process and understanding than those at the microscale. For each experiment, they elucidate key solutions to problems relating to materials, methods, and surface considerations. A complete resource for this rapidly emerging interdisciplinary field, this handbook provides practical information for planning the experiments of any project that employs nanofabrication techniques. It gives readers a foundation to enter the complex world of nanofabrication and inspires the scientific community at large to push the limits of nanometer resolution.
This series presents critical reviews of the present and future trends in polymer and biopolymer science including chemistry, physical chemistry, physics and materials science. It is addressed to all scientists at universities and in industry who wish to keep abreast of advances in the topics covered. Impact Factor Ranking: Always number one in Polymer Science. More information as well as the electronic version of the whole content available at: www.springerlink.com
A presentation of the most advanced application of optical near-field microscopy to studies of fine metallic structures and related surface plasmons.
The volumes V, VI and VII will examine the physical and technical foundation for recent progress in applied scanning probe techniques. These volumes constitute a timely comprehensive overview of SPM applications. This is the first book summarizing the state-of-the-art of this technique. The chapters are written by leading researchers and application scientists from all over the world and from various industries to provide a broader perspective.
The first volume in the series was released in January 2004 and the second to fourth volumes in early 2006. The field is now progressing so fast that there is a need for one volume every 12 to 18 months to capture latest developments. Volume VI presents 10 chapters on a variety of new and emerging techniques and refinements of SPM applications.
This third volume in the series represents the Proceedings of the
3rd International Nanophotonics Symposium, July 6-8, 2006,
Icho-Kaikan, Osaka University, Osaka, Japan. Over a two-day
symposium, distinguished scientists from around the world convened
to discuss the latest progress in this field and the conclusions
have been summarised in Nano Biophotonics: Science and Technology.
The contents of this book have been compiled by invited lecturers,
research members of the relevant projects/program, and some of
general participants. The book has 27 chapters which are classified
into 4 parts; nano bio-spectroscopy, nano bio-dynamics, nano
bio-processing, and nano bio-devices.
This book discusses the recent advances in the area of near-field
Raman scattering, mainly focusing on tip-enhanced and
surface-enhanced Raman scattering. Some of the key features covered
here are the optical structuring and manipulations, single molecule
sensitivity, analysis of single-walled carbon nanotubes, and
analytic applications in chemistry, biology and material sciences.
This book also discusses the plasmonic materials for better
enhancement, and optical antennas. Further, near-field microscopy
based on second harmonic generation is also discussed. Chapters
have been written by some of the leading scientists in this field,
who present some of their recent work in this field.
Current developments in optical technologies are being directed
toward nanoscale devices with subwavelength dimensions, in which
photons are manipulated on the nanoscale. Although light is clearly
the fastest means to send information to and from the nanoscale,
there is a fundamental incompatibility between light at the
microscale and devices and processes at the nanoscale.
Nanostructured metals which support surface plasmon modes can
concentrate electromagnetic (EM) fields to a small fraction of a
wavelength while enhancing local field strengths by several orders
of magnitude. For this reason, plasmonic nanostructures can serve
as optical couplers across the nano-micro interface:
metal-dielectric and metal-semiconductor nanostructures can act as
optical nanoantennae and enhance light matter coupling in nanoscale
devices. This book describes how one can fully integrate plasmonic
nanostructures into dielectric, semiconductor, and molecular
photonic devices, for guiding photons across the nano-micro
interface and for detecting molecules with unsurpassed sensitivity.
This second volume in the Handai Nanophotonics book series covers
the area of Nanoplasmonics, a recent hot topic in the field of
nanophotonics, impacting a diverse range of research disciplines
from information technology and nanotechnology to the bio- and
medical sciences. The interaction between photons and metal
nanostructures leads to interesting and extraordinary scientific
phenomena and produces new functions for nano materials and
devices. Newly discovered physical phenomena include local mode of
surface plasmon polariton excited in nanoparticles, hot spots on
nano-rods and nano-cones, long range mode of surface plasmons
excited on thin metal films, and dispersion relationship bandgaps
of surface plasmons in periodic metal structures. These have been
applied to, for example, single molecule detection and
nano-imaging/spectroscopy, photon accumulation for lasing
applications, optical nano-waveguides and nano-circuits.
While many books are dedicated to individual aspects of nanofabrication, there is no single source that defines and explains the total vision of the field. Filling this gap, Nanofabrication Handbook presents a unique collection of new and the most important established approaches to nanofabrication. Contributors from leading research facilities and academic institutions around the world define subfields, offer practical instructions and examples, and pave the way for future research. Helping readers to select the proper fabricating technique for their experiments, the book provides a broad vision of the most critical problems and explains how to solve them. It includes basic definitions and introduces the main underlying concepts of nanofabrication. The book also discusses the major advantages and disadvantages of each approach and offers a wide variety of examples of cutting-edge applications. Each chapter focuses on a particular method or aspect of study. For every method, the contributors describe the underlying theoretical basis, resolution, patterns and substrates used, and applications. They show how applications at the nanoscale require a different process and understanding than those at the microscale. For each experiment, they elucidate key solutions to problems relating to materials, methods, and surface considerations. A complete resource for this rapidly emerging interdisciplinary field, this handbook provides practical information for planning the experiments of any project that employs nanofabrication techniques. It gives readers a foundation to enter the complex world of nanofabrication and inspires the scientific community at large to push the limits of nanometer resolution.
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